Your search keyword '"Reaktive Sauerstoffspezies"' showing total 215 results

1. Aufnahme, Biodistribution und Toxizitätsmechanismen von metallhaltigen Nanopartikeln bei aquatischen Wirbellosen und Wirbeltieren

Author

Falfushynska, Halina, Sokolova, Inna, Stoika, Rostyslav S., and Stoika, Rostyslav S., editor

Published

2024

2. Altersbedingte Dysfunktion von Mitochondrien – Ursache und therapeutisches Ziel kardiovaskulärer Erkrankungen.

Author

Dihlmann, Susanne, Böckler, Dittmar, and Peters, Andreas S.

Abstract

Copyright of Gefaesschirurgie is the property of Springer Nature and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2022

3. Stimulation Effects of Glutamic and 5-Aminolevulinic Acids On Photosynthetic Pigments, Physio-biochemical Constituents, Antioxidant Activity, and Yield of Peanut

Author

El-Metwally, Ibrahim Mohamed, Sadak, Mervat Shamoon, and Saudy, Hani Saber

Published

2022

4. Wie aus Sauerstoff Energie wird und der Funke dabei trotzdem nicht überspringt – die Besonderheiten der Mitochondrien

Author

Schniertshauer, Daniel and Bergemann, Jörg

Published

2022

5. An AIE‐Active Conjugated Polymer with High ROS‐Generation Ability and Biocompatibility for Efficient Photodynamic Therapy of Bacterial Infections.

Author

Zhou, Taotao, Hu, Rong, Wang, Lirong, Qiu, Yanping, Zhang, Guiquan, Deng, Qiyun, Zhang, Haiyan, Yin, Pingan, Situ, Bo, Zhan, Chunlie, Qin, Anjun, and Tang, Ben Zhong

Subjects

*PHOTODYNAMIC therapy, *BACTERIAL diseases, *BIOMEDICAL materials, *POLYMERS, *BIOCOMPATIBILITY, *CONJUGATED polymers

Abstract

New, biocompatible materials with favorable antibacterial activity are highly desirable. In this work, we develop a unique conjugated polymer featuring aggregation‐induced emission (AIE) for reliable bacterial eradication. Thanks to the AIE and donor‐π‐acceptor structure, this polymer shows a high reactive oxygen species (ROS)‐generation ability compared to a low‐mass model compound and the common photosensitizer Chlorin E6. Moreover, the selective binding of pathogenic microorganisms over mammalian cells was found, demonstrating its biocompatibility. The effective growth inhibition of bacteria upon polymer treatment under light irradiation was validated in vitro and in vivo. Notably, the recovery from infection after treatment with our polymer is faster than that with cefalotin. Thus, this polymer holds great promise in fighting against bacteria‐related infections in practical applications. [ABSTRACT FROM AUTHOR]

Published

2020

6. A Glutathione Activatable Ion Channel Induces Apoptosis in Cancer Cells by Depleting Intracellular Glutathione Levels.

Author

Malla, Javid Ahmad, Umesh, Rintu M., Yousf, Saleem, Mane, Shrunal, Sharma, Shilpy, Lahiri, Mayurika, and Talukdar, Pinaki

Subjects

*CANCER cells, *ION channels, *GLUTATHIONE, *APOPTOSIS, *CELL death

Abstract

Cancer cells use elevated glutathione (GSH) levels as an inner line of defense to evade apoptosis and develop drug resistance. In this study, we describe a novel 2,4‐nitrobenzenesulfonyl (DNS) protected 2‐hydroxyisophthalamide system that exploits GSH for its activation into free 2‐hydroxyisophthalamide forming supramolecular M+/Cl− channels. Better permeation of the DNS protected compound into MCF‐7 cells compared to the free 2‐hydroxyisophthalamide and GSH‐activatable ion transport resulted in higher cytotoxicity, which was associated with increased oxidative stress that further reduced the intracellular GSH levels and altered mitochondrial membrane permeability leading to the induction of the intrinsic apoptosis pathway. The GSH‐activatable transport‐mediated cell death was further validated in rat insulinoma cells (INS‐1E); wherein the intracellular GSH levels showed a direct correlation to the resulting cytotoxicity. Lastly, the active compound was found to restrict the growth and proliferation of 3D spheroids of MCF‐7 cells with efficiency similar to that of the anticancer drug doxorubicin. [ABSTRACT FROM AUTHOR]

Published

2020

7. Versatile Fluorescent Probes for Imaging the Superoxide Anion in Living Cells and In Vivo.

Author

Xiao, Haibin, Zhang, Wen, Li, Ping, Zhang, Wei, Wang, Xin, and Tang, Bo

Subjects

*FLUORESCENT probes, *SUPEROXIDES, *BIOLOGICAL systems, *BIOLOGICAL monitoring, *ANIONS, *CELLULAR control mechanisms

Abstract

The superoxide anion (O2.−) is widely engaged in the regulation of cell functions and is thereby intimately associated with the onset and progression of many diseases. To ascertain the pathological roles of O2.− in related diseases, developing effective methods for monitoring O2.− in biological systems is essential. Fluorescence imaging is a powerful tool for monitoring bioactive molecules in cells and in vivo owing to its high sensitivity and high temporal‐spatial resolution. Therefore, increasing numbers of fluorescent imaging probes have been constructed to monitor O2.− inside live cells and small animals. In this minireview, we summarize the methods for design and application of O2.−‐responsive fluorescent probes. Moreover, we present the challenges for detecting O2.− and suggestions for constructing new fluorescent probes that can indicate the production sites and concentration changes in O2.− as well as O2.−‐associated active molecules in living cells and in vivo. [ABSTRACT FROM AUTHOR]

Published

2020

8. A Neutrophil‐Inspired Supramolecular Nanogel for Magnetocaloric–Enzymatic Tandem Therapy.

Author

Zhang, Qi, Wu, Jiaojiao, Wang, Jingjing, Wang, Xia, Wu, Chu, Chen, Mengwei, Wu, Qing, Lesniak, Maciej S., Mi, Yongli, Cheng, Yu, and Wang, Qigang

Subjects

*REACTIVE oxygen species, *MAGNETIC nanoparticles, *CANCER cells, *MAGNETIC fields, *PROOF of concept, *NEUTROPHILS

Abstract

Neutrophils can responsively release reactive oxygen species (ROS) to actively combat infections by exogenous stimulus and cascade enzyme catalyzed bio‐oxidation. A supramolecular nanogel is now used as an artificial neutrophil by enzymatic interfacial self‐assembly of peptides (Fmoc‐Tyr(H2PO3)‐OH) with magnetic nanoparticles (MNPs) and electrostatic loading of chloroperoxidase (CPO). The MNPs within the nanogel can elevate H2O2 levels in cancer cells under programmed alternating magnetic field (AMF) similar to the neutrophil activator, and the loaded CPO within protective peptides nanolayer converts the H2O2 into singlet oxygen (1O2) in a sustained manner for neutrophil‐inspired tumor therapy. As a proof of concept study, both the H2O2 and 1O2 in cancer cells increase stepwise under a programmed alternating magnetic field. An active enzyme dynamic therapy by magnetically stimulated oxygen stress and sustained enzyme bio‐oxidation is thus shown with studies on both cells and animals. [ABSTRACT FROM AUTHOR]

Published

2020

9. Self‐Amplified Photodynamic Therapy through the 1O2‐Mediated Internalization of Photosensitizers from a Ppa‐Bearing Block Copolymer.

Author

Liu, Zhiyong, Cao, Tianye, Xue, Yudong, Li, Mengting, Wu, Mengsi, Engle, Jonathan W., He, Qianjun, Cai, Weibo, Lan, Minbo, and Zhang, Weian

Subjects

*PHOTODYNAMIC therapy, *PHOTOSENSITIZERS, *CANCER treatment, *REACTIVE oxygen species, *LASER microscopy, *BLOCK copolymers, *DIBLOCK copolymers

Abstract

Nanocarriers are employed to deliver photosensitizers for photodynamic therapy (PDT) through the enhanced penetration and retention effect, but disadvantages including the premature leakage and non‐selective release of photosensitizers still exist. Herein, we report a 1O2‐responsive block copolymer (POEGMA‐b‐P(MAA‐co‐VSPpaMA) to enhance PDT via the controllable release of photosensitizers. Once nanoparticles formed by the block copolymer have accumulated in a tumor and have been taken up by cancer cells, pyropheophorbide a (Ppa) could be controllably released by singlet oxygen (1O2) generated by light irradiation, enhancing the photosensitization. This was demonstrated by confocal laser scanning microscopy and in vivo fluorescence imaging. The 1O2‐responsiveness of POEGMA‐b‐P(MAA‐co‐VSPpaMA) block copolymer enabled the realization of self‐amplified photodynamic therapy by the regulation of Ppa release using NIR illumination. This may provide a new insight into the design of precise PDT. [ABSTRACT FROM AUTHOR]

Published

2020

10. Porous CuxCoyS Supraparticles for In Vivo Telomerase Imaging and Reactive Oxygen Species Generation.

Author

Li, Si, Xu, Liguang, Hao, Changlong, Sun, Maozhong, Wu, Xiaoling, Kuang, Hua, and Xu, Chuanlai

Subjects

*TELOMERASE, *REACTIVE oxygen species, *BIOLOGICAL systems, *TREATMENT effectiveness, *CELL imaging, *CANCER cells, *SPECIES

Abstract

In this study, we successfully synthesized CuxCoyS supraparticles (SPs) on the nanoscale featuring multiple pores inside and strong absorption from 400 to 900 nm. Porous CuxCoyS SPs produced the highest reactive oxygen species (ROS) yield (1.39) when illuminated with near‐infrared (NIR) light. Furthermore, we demonstrated that CuxCoyS SPs could be used to identify cancer cells through intracellular telomerase‐responsive fluorescence (FL) imaging in living cells. Because the CuxCoyS SPs were associated with telomerase‐responsive bioimaging and high ROS production, they can be efficiently used in the diagnosis and therapy of tumors with high selectivity and excellent therapeutic effects in vivo. This study provides a new vision for the creation of multifunctional SPs, which can be used as cellular sensors and control tools for pathologies across a broad range of biological systems. [ABSTRACT FROM AUTHOR]

Published

2019

11. Defect‐Rich Adhesive Nanozymes as Efficient Antibiotics for Enhanced Bacterial Inhibition.

Author

Cao, Fangfang, Zhang, Lu, Wang, Huan, You, Yawen, Wang, Ying, Gao, Nan, Ren, Jinsong, and Qu, Xiaogang

Subjects

*ANTIBIOTICS, *BACTERIAL adhesion, *PEROXIDASE, *ROUGH surfaces, *BACTERIAL cell surfaces, *ESCHERICHIA coli

Abstract

Nanozymes have emerged as a new generation of antibiotics with exciting broad‐spectrum antimicrobial properties and negligible biotoxicities. However, their antibacterial efficacies are unsatisfactory due to their inability to trap bacteria and their low catalytic activity. Herein, we report nanozymes with rough surfaces and defect‐rich active edges. The rough surface increases bacterial adhesion and the defect‐rich edges exhibit higher intrinsic peroxidase‐like activity compared to pristine nanozymes due to their lower adsorption energies of H2O2 and desorption energy of OH*, as well as the larger exothermic process for the whole reaction. This was demonstrated using drug‐resistant Gram‐negative Escherichia coli and Gram‐positive Staphylococcus aureus in vitro and in vivo. This strategy can be used to engineer nanozymes with enhanced antibacterial function and will pave a new way for the development of alternative antibiotics. [ABSTRACT FROM AUTHOR]

Published

2019

12. Oxidation‐Mediated Kinetic Strategies for Engineering Metal–Phenolic Networks.

Author

Zhong, Qi‐Zhi, Li, Shiyao, Chen, Jingqu, Xie, Ke, Pan, Shuaijun, Richardson, Joseph J., and Caruso, Frank

Subjects

*MATERIALS, *REACTIVE oxygen species, *SONICATION

Abstract

The tunable growth of metal–organic materials has implications for engineering particles and surfaces for diverse applications. Specifically, controlling the self‐assembly of metal–phenolic networks (MPNs), an emerging class of metal–organic materials, is challenging, as previous studies suggest that growth often terminates through kinetic trapping. Herein, kinetic strategies were used to temporally and spatially control MPN growth by promoting self‐correction of the coordinating building blocks through oxidation‐mediated MPN assembly. The formation and growth mechanisms were investigated and used to engineer films with microporous structures and continuous gradients. Moreover, reactive oxygen species generated by ultrasonication expedite oxidation and result in faster (ca. 30 times) film growth than that achieved by other MPN assembly methods. This study expands our understanding of metal–phenolic chemistry towards engineering metal–phenolic materials for various applications. [ABSTRACT FROM AUTHOR]

Published

2019

13. Confining Free Radicals in Close Vicinity to Contaminants Enables Ultrafast Fenton‐like Processes in the Interspacing of MoS2 Membranes.

Author

Chen, Yu, Zhang, Gong, Liu, Huijuan, and Qu, Jiuhui

Subjects

*MOLYBDENUM sulfides, *FENTON'S reagent, *FREE radicals, *PERSISTENT pollutants, *CATALYTIC activity, *CHEMICAL decomposition

Abstract

Heterogenous Fenton‐like reactions are frequently proposed for treating persistent pollutants through the generation of reactive radicals. Despite great efforts to optimize catalyst activity, their broad application in practical settings has been restricted by the low efficiency of hydrogen peroxide or persulfate decomposition as well as ultrafast self‐quenching of the activated radicals. Theoretical calculations predicted that two‐dimensional (2D) metallic 1T phase MoS2 materials with exposed (001) surfaces and (100) edges should have remarkable affinity towards crucial intermediates in the peroxymonosulfate (PMS) activation process. X‐ray photoelectron spectroscopy and in situ Raman spectroscopy were used to show that the exposed metallic Mo sites accelerate the rate‐limiting step of electron transfer. A lamellar membrane made from a stack of 2D MoS2 with tunable interspacing was then designed as the catalyst. The non‐linear transport between the MoS2 nanolayers leads to high water diffusivity so that the short‐lived reactive radicals efficiently oxidize contaminants. [ABSTRACT FROM AUTHOR]

Published

2019

14. Release of Amino‐ or Carboxy‐Containing Compounds Triggered by HOCl: Application for Imaging and Drug Design.

Author

Wei, Peng, Liu, Lingyan, Wen, Ying, Zhao, Guilong, Xue, Fengfeng, Yuan, Wei, Li, Ruohan, Zhong, Yaping, Zhang, Mengfan, and Yi, Tao

Subjects

*HYPOCHLORITES, *AMINO acids, *DRUG design, *DRUG delivery systems, *PRODRUGS, *CHEMICAL detectors

Abstract

The overproduction of HOCl is highly correlated with diseases such as atherosclerosis, rheumatoid arthritis, and cancer. Whilst acting as a marker of these diseases, HOCl might also be used as an activator of prodrugs or drug delivery systems for the treatment of the corresponding disease. In this work, a new platform of HOCl probes has been developed that integrates detection, imaging, and therapeutic functions. The probes can detect HOCl, using both NIR emission and the naked eye in vitro, with high sensitivity and selectivity at ultralow concentrations (the detection limit is at the nanomolar level). Basal levels of HOCl can be imaged in HL‐60 cells without special stimulation. Moreover, the probes provided by this platform can rapidly release either amino‐ or carboxy‐containing compounds from prodrugs, during HOCl detection and imaging, to realize a therapeutic effect. [ABSTRACT FROM AUTHOR]

Published

2019

15. Ferrocene‐Linkage‐Facilitated Charge Separation in Conjugated Microporous Polymers.

Author

Ma, Li, Liu, Yilin, Liu, Yi, Jiang, Shuyi, Li, Ping, Hao, Yuchen, Shao, Pengpeng, Yin, Anxiang, Feng, Xiao, and Wang, Bo

Subjects

*FERROCENE, *CONJUGATED polymers, *POROUS materials, *ORGANIC synthesis, *SURFACE area

Abstract

Conjugated microporous polymers (CMPs) have full access to the organic synthesis toolbox and feature‐rich functionality, structural diversity, and high surface area. We incorporated ferrocene (Fc) into the backbones of CMPs and systematically engineered their optical energy gaps. Compared with the CMPs without Fc units yet adopting a similar molecular orbital level, Fc‐based CMPs can sufficiently generate reactive oxygen species (ROS) under visible light. The resultant ROS are able to effectively decompose the absorbed pollutants, including organic dyes and chemical warfare agents. Specifically, Fc‐based CMPs significantly outperform commercial TiO2 (P25) in the degradation of methylene blue and are capable of converting 2‐chloroethyl ethyl sulfide (a mustard gas simulant) into a completely nontoxic product. [ABSTRACT FROM AUTHOR]

Published

2019

16. Exogenous Silicon Protects Brassica napus Plants from Salinity-Induced Oxidative Stress Through the Modulation of AsA-GSH Pathway, Thiol-Dependent Antioxidant Enzymes and Glyoxalase Systems.

Author

Hasanuzzaman, Mirza, Nahar, K., Rohman, M. M., Anee, T. I., Huang, Y., and Fujita, M.

Subjects

RUTABAGA, OXIDATIVE stress, PLANT species, HYDROPONICS, ANTIOXIDANTS, GLYOXALASE

Abstract

Although silicon (Si) has showed its potential role in mitigating abiotic stress-induced damages in many plant species its role in coordinated induction of antioxidant defense is yet to be elucidated. Therefore, we studied rapeseed (Brassica napus) seedlings applied with exogenous Si for changes occurring in antioxidant defense and glyoxalase systems. Seedlings (12-day-old) grown semi-hydroponically were exposed to Si (silicon dioxide, SiO2; 1 mM) solely and in combination with NaCl (100 and 200 mM) for 48 h. Salinity created oxidative damage by increasing H2O2 and malondialdehyde (MDA) contents resulting in disruption of antioxidant defense system and in arousing methylglyoxal (MG) toxicity by the down-regulation of glyoxalase enzyme activities. Exogenous Si treatment showed reduction of both H2O2 and MDA contents and up-regulation of antioxidant components including the activities of related enzymes (APX, MDHAR, DHAR, GR, GST, GPX and CAT) and the contents of AsA and GSH. Enhanced activities of glyoxalase I (Gly I) and glyoxalase II (Gly II) detoxified the toxic MG. Thus, this study clearly indicates that Si improved plant tolerance to salinity stress through enhancement of both antioxidant defense and glyoxalase systems that led to reduced oxidative damage and MG toxicity. [ABSTRACT FROM AUTHOR]

Published

2018

17. Regulation der Phosphoglykolat-Phosphatase von Säugetieren

Author

Engelmann, Daria Marie

Subjects

ddc:615, Dephosphorylierung, Inhibitor, 615 Pharmakologie, Therapeutik, Reaktive Sauerstoffspezies, Phosphoglykolatphosphatase, Regulation

Abstract

Mammalian phoshoglycolate phosphatase (PGP, also known as AUM) belongs to the ubiquitous HAD superfamily of phosphatases. As several other members of HAD phosphatases, the Mg2+-dependent dephosphorylation is conducted via a nucleophilic attack from a conserved aspartate residue in the catalytic cleft. The protein structure of PGP could not yet be solved entirely. Only a hybrid consisting of the PGP cap and the PDXP core (pyridoxal phosphatase, closest enzyme paralog) was crystallizable so far. PGP is able to efficiently dephosphorylate 2-phosphoglycolate, 2-phospho-L-lactate, 4-phospho-D-erythronate, and glycerol-3-phosphate in vitro which makes them likely physiological substrates. The first three substrates can be derived from metabolic side reactions (during glycolysis) and inhibit key enzymes in glycolysis and pentose phosphate pathway, the latter is situated at the intersection between glycolysis and lipogenesis. 2-phosphoglycolate can also be released in the context of repair of oxidative DNA damage. The activity of purified PGP can be reversibly inhibited by oxidation - physiologically likely in association with epidermal growth factor (EGF) signal transduction. In fact, an association between persistently lacking PGP activity (via downregulation) and the presence of hyperphosphorylated proteins after EGF stimulation has been identified. Reversible oxidation and transient inactivation of PGP may be particularly important for short-term and feedback regulatory mechanisms (as part of the EGF signaling). Furthermore, cellular proliferation in PGP downregulated cells is constantly reduced. Whole-body PGP inactivation in mice is embryonically lethal. Despite the many well-known features and functions, the knowledge about PGP is still incomplete. In the present work the influence of reactive oxygen species (ROS) on PGP activity in cells und a possible connection between oxidative stress and the proliferation deficit of PGP downregulated cells was investigated. For the experiments, a spermatogonial cell line was used (due to the high PGP expression in testis). PGP activity can be reversibly inhibited in cellular lysates by H2O2 (as a ROS representative). Reversible oxidation could thus indeed be physiologically important. More oxidative DNA damage (by bleomycin) showed no PGP-dependent effects here. EGF stimulation (as an inducer of transient and well-controlled ROS production), low concentrations of menadione (as an oxidant) and N-acetylcysteine (as an antioxidant) were able to approximate the proliferation rate in PGP downregulated cells to that of control cells. The redox regulation of PGP could thus have an influence on cellular proliferation as a feedback mechanism - a mechanism that could not take place in PGP downregulated cells. However, the connections are probably even more complex and cannot be elucidated by a sole examination of the proliferation rate. The present results can thus only be regarded as preliminary experiments. For a better understanding of the features and functions of PGP, this work then focused on specific regulation of enzyme activity by pharmacologically applicable small molecules. Four potent inhibitors had previously been identified in a screening campaign. In this work, three of these four inhibiting compounds could be further characterized in experiments with highly purified, recombinant murine and human PGP. Compounds #2 and #9 showed competitive inhibition properties with a markedly rising KM value with little or no change in vmax. The results were consistent for all tested protein variants: the murine and the human PGP as well as a PGP/PDXP hybrid protein. Compound #1 was the most potent and interesting PGP-inhibitory molecule: less change in KM and a constant decrease in vmax as well as a lower impact on the PGP/PDXP hybrid hint at a mixed mode of inhibition as a combination of competitive and non-competitive inhibition. The characterization of the potential inhibitors can serve as a basis for further structural analysis and studies on the complex physiological role of PGP., Die Phosphoglykolat-Phosphatase (PGP, auch AUM genannt) in Säugetieren gehört zu der ubiquitär vorkommenden HAD Phosphatasen-Superfamilie. PGPs Proteinstruktur konnte bisher nicht vollständig gelöst werden. Es ließ sich nur ein Hybridenzym, bestehend aus der PGP-Kappe und dem PDXP-Kern (Pyridoxal-Phosphatase, am nächsten verwandtes Enzym), kristallisieren. Wie zahlreiche andere Mitglieder der HAD Phosphatasen, geschieht die Magnesium-abhängige Dephosphorylierung durch eine nukleophile Attacke eines konservierten Aspartat-Rests im katalytischen Zentrum. PGP ist in der Lage 2-Phosphoglykolat, 4-Phospho-D-Erythronat, 2-Phospho-L-Laktat und Glycerol-3-Phosphat in vitro zu dephosphorylieren, was sie zu wahrscheinlichen physiologischen Substraten macht. Die ersten drei Substrate können durch metabolische Nebenreaktionen (während der Glykolyse) entstehen und Schlüsselenzyme in Glykolyse und Pentosephosphatweg inhibieren, das letztgenannte findet sich an der Kreuzung zwischen Glykolyse und Lipogenese. 2-Phosphoglykolat kann auch im Rahmen der Reparatur von oxidativem DNA-Schaden freigesetzt werden. Die Aktivität von gereinigtem PGP kann durch Oxidation - physiologisch wahrscheinlich assoziiert mit der Signaltransduktion des epidermalen Wachstumsfaktors (EGF) - reversibel inhibiert werden. Es wurde nämlich auch ein Zusammenhang zwischen dauerhaft mangelnder PGP-Aktivität (durch Herabregulation) und dem Vorkommen hyperphosphorylierter Proteine nach EGF-Stimulation festgestellt. Reversible Oxidation und vorübergehende Inaktivierung der PGP könnten vor allem für Kurzzeit- und Rückkopplungs-Regulationsmechanismen (im Rahmen der EGF-Signalkaskade) bedeutend sein. Weiterhin ist die zelluläre Proliferation in PGP-herabregulierten Zellen konstant reduziert. Eine PGP-Inaktivierung im gesamten Organismus in Mäusen ist embryonal letal. Trotz der vielen inzwischen bekannten Eigenschaften und Funktionen ist das gesammelte Wissen über PGP noch lückenhaft. In der vorliegenden Arbeit wurde zunächst der Einfluss von reaktiven Sauerstoffspezies (ROS) auf die PGP-Aktivität in Zellen und ein möglicher Zusammenhang zwischen oxidativem Stress und dem Proliferationsdefizit von PGP-herabregulierten Zellen untersucht. Für die Experimente wurde (aufgrund der hohen PGP-Expression in Hoden) eine spermatogoniale Zelllinie verwendet. PGP-Aktivität kann in zellulären Lysaten reversibel durch H2O2 (als ROS Vertreter) gehemmt werden. Reversible Oxidation könnte also tatsächlich auch physiologisch von Bedeutung sein. Mehr oxidativer DNA Schaden (durch Bleomycin) zeigte hier keine PGP-abhängigen Effekte. EGF-Stimulation (als Auslöser von transienter und gut kontrollierter ROS-Produktion), niedrigdosiertes Menadion (als Oxidans) und N-Acetylcystein (als Antioxidans) konnten die Proliferationsrate in PGP-herabregulierten Zellen an die von Kontrollzellen annähern. Die Redox-Regulation von PGP könnte als Feedback-Mechanismus also auch Einfluss auf die zelluläre Proliferation haben - ein Mechanismus, der bei PGP herabregulierten Zellen so nicht stattfinden könnte. Wahrscheinlich sind die Zusammenhänge aber noch komplexer und mit einer alleinigen Untersuchung der Proliferationsrate nicht aufzuklären. Die vorliegenden Ergebnisse können also nur als Pionierversuche betrachtet werden. Um die Merkmale und Funktionen von PGP besser zu verstehen, fokussierte sich die weitere Arbeit auf die spezifische Regulation der Enzymaktivität durch pharmakologisch anwendbare kleine Moleküle. Vier potentielle Inhibitoren waren zuvor in einer Screening-Kampagne identifiziert worden. In dieser Arbeit konnten drei von vier der inhibierenden Moleküle in Experimenten mit hoch-aufgereinigtem, rekombinantem murinem und humanem PGP näher charakterisiert werden. Die Moleküle #2 und #9 zeigten kompetitiv hemmende Eigenschaften mit deutlich steigendem KM-Wert bei geringer oder gar keiner Veränderung der Maximalgeschwindigkeit (vmax). Die Ergebnisse waren bei allen untersuchten Protein-Varianten - murinem und humanem PGP sowie einem PGP/PDXP-Hybrid-Protein - vergleichbar. Molekül #1 war der potenteste und interessanteste PGP-Inhibitor: eine geringere Veränderung des KM-Werts und eine konstante Verminderung von vmax sowie ein reduzierter Einfluss auf den PGP/PDXP-Hybriden weisen auf einen gemischten Inhibitionsmechanismus als Kombination aus kompetitiver und nicht-kompetitiver Hemmung hin. Die Charakterisierung der potentiellen Inhibitoren kann als Basis für weiterführende strukturelle Analysen und der Untersuchung der komplexen physiologischen Rolle von PGP dienen.

Published

2023

18. Ultrasmall Nanopipette: Toward Continuous Monitoring of Redox Metabolism at Subcellular Level.

Author

Song, Juan, Xu, Cong‐Hui, Huang, Shi‐Zhen, Lei, Wen, Ruan, Yi‐Fan, Lu, Hai‐Jie, Zhao, Wei, Xu, Jing‐Juan, and Chen, Hong‐Yuan

Subjects

*PIPETTES, *METABOLISM, *BIOMIMETIC chemicals, *MOLECULAR recognition, *DEOXYRIBOZYMES, *ELECTROCHEMICAL analysis

Abstract

Abstract: Ionic current rectification (ICR) based nanopipettes allow accurate monitoring of cellular behavior in single living cells. Herein, we proposed a 30 nm nanopipette functionalized with G‐quadruplex DNAzyme as an efficient biomimetic recognizer for ROS generation at subcellular level via the changes of current–voltage relationship. Taking advantages of the ultra‐small tip, the nanopipette could penetrate into a single living cell repeatedly or keep measuring for a long time without compromising the cellular functions. Coupled with precision nanopositioning system, generation of ROS in mitochondria in response to cell inflammation was determined with high spatial resolution. Meanwhile, the changes of aerobic metabolism in different cell lines under drug‐induced oxidative stress were monitored continuously. We believe that the ICR‐nanopipette could be developed as a powerful approach for the study of cellular activities via electrochemical imaging in living cells. [ABSTRACT FROM AUTHOR]

Published

2018

19. ROS‐Responsive N‐Alkylaminoferrocenes for Cancer‐Cell‐Specific Targeting of Mitochondria.

Author

Reshetnikov, Viktor, Daum, Steffen, Janko, Christina, Karawacka, Weronika, Tietze, Rainer, Alexiou, Christoph, Paryzhak, Solomiya, Dumych, Tetiana, Bilyy, Rostyslav, Tripal, Philipp, Schmid, Benjamin, Palmisano, Ralf, and Mokhir, Andriy

Subjects

*FERROCENE, *CANCER cells, *MITOCHONDRIAL membranes, *MOLECULAR structure, *CONJUGATED polymers

Abstract

Abstract: Mitochondrial membrane potential is more negative in cancer cells than in normal cells, allowing cancer targeting by delocalized lipophilic cations (DLCs). However, as the difference is rather small, these drugs affect also normal cells. Now a concept of pro‐DLCs is proposed based on an N‐alkylaminoferrocene structure. These prodrugs are activated by the reaction with reactive oxygen species (ROS) forming ferrocenium‐based DLCs. Since ROS are overproduced in cancer, the high‐efficiency cancer‐cell‐specific targeting of mitochondria could be achieved as demonstrated by fluorescence microscopy in combination with two fluorogenic pro‐DLCs in vitro and in vivo. We prepared a conjugate of another pro‐DLC with a clinically approved drug carboplatin and confirmed that its accumulation in mitochondria was higher than that of the free drug. This was reflected in the substantially higher anticancer effect of the conjugate. [ABSTRACT FROM AUTHOR]

Published

2018

20. The defense and signaling role of NADPH oxidases in eukaryotic cells.

Author

Breitenbach, Michael, Rinnerthaler, Mark, Weber, Manuela, Breitenbach-Koller, Hannelore, Karl, Thomas, Cullen, Paul, Basu, Sukaniya, Haskova, Dana, and Hasek, Jiri

Abstract

This short review article summarizes what is known clinically and biochemically about the seven human NADPH oxidases. Emphasis is put on the connection between mutations in the catalytic and regulatory subunits of Nox2, the phagocyte defense enzyme, with syndromes like chronic granulomatous disease, as well as a number of chronic inflammatory diseases. These arise paradoxically from a lack of reactive oxygen species production needed as second messengers for immune regulation. Both Nox2 and the six other human NADPH oxidases display signaling functions in addition to the functions of these enzymes in specialized biochemical reactions, for instance, synthesis of the hormone thyroxine. NADPH oxidases are also needed by Saccharomyces cerevisiae cells for the regulation of the actin cytoskeleton in times of stress or developmental changes, such as pseudohyphae formation. The article shows that in certain cancer cells Nox4 is also involved in the re-structuring of the actin cytoskeleton, which is required for cell mobility and therefore for metastasis. [ABSTRACT FROM AUTHOR]

Published

2018

21. Tandem Payne/Dakin Reaction: A New Strategy for Hydrogen Peroxide Detection and Molecular Imaging.

Author

Ye, Sen, Hu, Jun Jacob, and Yang, Dan

Subjects

*HYDROGEN peroxide, *MOLECULAR recognition, *COUPLING reactions (Chemistry), *CHEMICAL reactions, *COUPLING agents (Chemistry)

Abstract

Abstract: Hydrogen peroxide (H2O2) has been recognized as one of the most significant ROS (reactive oxygen species) in human health and disease. Because of the intrinsic attributes of H2O2—such as its low reactivity under physiological pH—it is exceedingly challenging to develop small‐molecule fluorescent probes with high selectivity and sensitivity for visualization of H2O2 in an intricate biological milieu. To address this gap, a rationally designed tandem Payne/Dakin reaction is reported that is specific to molecular recognition of H2O2. New H2O2 probes based on this unique chemical strategy can be easily synthesized by a general coupling reaction, and the practical applicability of those probes has been confirmed by the visualization of endogenously produced H2O2 in living cells. In particular, starvation‐induced H2O2 production in mouse macrophages has been detected by the novel probe in both confocal imaging and flow cytometry. This tandem Payne/Dakin reaction provides a basis for developing more sophisticated molecular tools to interrogate H2O2 functions in biological phenomena. [ABSTRACT FROM AUTHOR]

Published

2018

22. Phthalocyanine‐Assembled Nanodots as Photosensitizers for Highly Efficient Type I Photoreactions in Photodynamic Therapy.

Author

Li, Xingshu, Lee, Dayoung, Huang, Jian‐Dong, and Yoon, Juyoung

Subjects

*PHTHALOCYANINES, *PHOTOSENSITIZERS, *PHOTODYNAMIC therapy, *PHOTOCHEMISTRY, *REACTIVE oxygen species

Abstract

Abstract: Owing to their unique, nanoscale related optical properties, nanostructures assembled from molecular photosensitizers (PSs) have interesting applications in phototheranostics. However, most nanostructured PS assemblies are super‐quenched, thus, preventing their use in photodynamic therapy (PDT). Although some of these materials undergo stimuli‐responsive disassembly, which leads to partial recovery of PDT activity, their therapeutic potentials are unsatisfactory owing to a limited ability to promote generation reactive oxygen species (ROS), especially via type I photoreactions (i.e., not by 1O2 generation). Herein we demonstrate that a new, nanostructured phthalocyanine assembly, NanoPcA, has the ability to promote highly efficient ROS generation via the type I mechanism. The results of antibacterial studies demonstrate that NanoPcA has potential PDT applications. [ABSTRACT FROM AUTHOR]

Published

2018

23. Ceria Nanoparticle Systems for Selective Scavenging of Mitochondrial, Intracellular, and Extracellular Reactive Oxygen Species in Parkinson's Disease.

Author

Kwon, Hyek Jin, Kim, Dokyoon, Seo, Kyungho, Kim, Young Geon, Han, Sang Ihn, Kang, Taegyu, Soh, Min, and Hyeon, Taeghwan

Subjects

*CERIUM oxides, *NANOPARTICLES, *MITOCHONDRIAL membranes, *INTRACELLULAR membranes, *REACTIVE oxygen species, *PARKINSON'S disease

Abstract

Abstract: Oxidative stress induced by reactive oxygen species (ROS) is one of the critical factors that involves in the pathogenesis and progression of many diseases. However, lack of proper techniques to scavenge ROS depending on their cellular localization limits a thorough understanding of the pathological effects of ROS. Here, we demonstrate the selective scavenging of mitochondrial, intracellular, and extracellular ROS using three different types of ceria nanoparticles (NPs), and its application to treat Parkinson's disease (PD). Our data show that scavenging intracellular or mitochondrial ROS inhibits the microglial activation and lipid peroxidation, while protecting the tyrosine hydroxylase (TH) in the striata of PD model mice. These results indicate the essential roles of intracellular and mitochondrial ROS in the progression of PD. We anticipate that our ceria NP systems will serve as a useful tool for elucidating the functions of various ROS in diseases. [ABSTRACT FROM AUTHOR]

Published

2018

24. A Persulfide Donor Responsive to Reactive Oxygen Species: Insights into Reactivity and Therapeutic Potential.

Author

Powell, Chadwick R., Dillon, Kearsley M., Wang, Yin, Carrazzone, Ryan J., and Matson, John B.

Subjects

*HYDROGEN sulfide, *REACTIVE oxygen species, *REACTIVITY (Chemistry), *OXIDATION-reduction reaction, *THIOLS

Abstract

Abstract: Persulfides (RSSH) have been hypothesized as critical components in sulfur‐mediated redox cycles and as potential signaling compounds, similar to hydrogen sulfide (H2S). Hindering the study of persulfides is a lack of persulfide‐donor compounds with selective triggers that release discrete persulfide species. Reported here is the synthesis and characterization of a ROS‐responsive (ROS=reactive oxygen species), self‐immolative persulfide donor. The donor, termed BDP‐NAC, showed selectivity towards H2O2 over other potential oxidative or nucleophilic triggers, resulting in the sustained release of the persulfide of N‐acetyl cysteine (NAC) over the course of 2 h, as measured by LCMS. Exposure of H9C2 cardiomyocytes to H2O2 revealed that BDP‐NAC mitigated the effects of a highly oxidative environment in a dose‐dependent manner over relevant controls and to a greater degree than common H2S donors sodium sulfide (Na2S) and GYY4137. BDP‐NAC also rescued cells more effectively than a non‐persulfide‐releasing control compound in concert with common H2S donors and thiols. [ABSTRACT FROM AUTHOR]

Published

2018

25. N‐Heterocyclic Carbene Boranes as Reactive Oxygen Species‐Responsive Materials: Application to the Two‐Photon Imaging of Hypochlorous Acid in Living Cells and Tissues.

Author

Pak, Yen Leng, Park, Sang Jun, Wu, Di, Cheon, Bohyun, Kim, Hwan Myung, Bouffard, Jean, and Yoon, Juyoung

Subjects

*HETEROCYCLIC compounds synthesis, *BORANE synthesis, *CELL imaging, *REACTIVE oxygen species, *HYPOCHLORITES, *HYDROLYSIS kinetics

Abstract

Abstract: N‐Heterocyclic carbene (NHC) boranes undergo oxidative hydrolysis to give imidazolium salts with excellent kinetic selectivity for HOCl over other reactive oxygen species (ROS), including peroxides and peroxynitrite. Selectivity for HOCl results from the electrophilic oxidation mechanism of NHC boranes, which stands in contrast to the nucleophilic oxidation mechanism of arylboronic acids with ROS. The change in polarity that accompanies the conversion of NHC boranes to imidazolium salts can control the formation of emissive excimers, forming the basis for the design of the first fluorescence probe for ROS based on the oxidation of B−H bonds. Two‐photon microscope (TPM) ratiometric imaging of HOCl in living cells and tissues is demonstrated. [ABSTRACT FROM AUTHOR]

Published

2018

26. Lysosome-Targeting Amplifiers of Reactive Oxygen Species as Anticancer Prodrugs.

Author

Daum, Steffen, Reshetnikov, M. S. Viktor, Sisa, Miroslav, Dumych, Tetyana, Lootsik, Maxim D., Bilyy, Rostyslav, Bila, Evgenia, Janko, Christina, Alexiou, Christoph, Herrmann, Martin, Sellner, Leopold, and Mokhir, Andriy

Subjects

*CANCER treatment, *LYSOSOMES, *CANCER cells, *REACTIVE oxygen species, *ANTINEOPLASTIC agents, *PRODRUGS

Abstract

Cancer cells produce elevated levels of reactive oxygen species, which has been used to design cancer specific prodrugs. Their activation relies on at least a bimolecular process, in which a prodrug reacts with ROS. However, at low micromolar concentrations of the prodrugs and ROS, the activation is usually inefficient. Herein, we propose and validate a potentially general approach for solving this intrinsic problem of ROS-dependent prodrugs. In particular, known prodrug 4-( N-ferrocenyl- N-benzylaminocarbonyloxymethyl)phenylboronic acid pinacol ester was converted into its lysosome-specific analogue. Since lysosomes contain a higher concentration of active ROS than the cytoplasm, activation of the prodrug was facilitated with respect to the parent compound. Moreover, it was found to exhibit high anticancer activity in a variety of cancer cell lines (IC50=3.5-7.2 μ m) and in vivo (40 mg kg−1, NK/Ly murine model) but remained weakly toxic towards non-malignant cells (IC50=15-30 μ m). [ABSTRACT FROM AUTHOR]

Published

2017

27. Analyse der Reaktionskinetik in einer dielektrischen Oberflächenentladung für die Konversion flüchtiger organischer Verbindungen

Author

Schücke, Lars

Subjects

620 Ingenieurwissenschaften, Maschinenbau, Stickstoff, Reaktive Sauerstoffspezies, VOC (Ökologische Chemie), ddc:620, Atmosphärendruckplasma, Reaktionskinetik

Abstract

Dielektrische Barriereentladungen gehören zu den nicht-thermischen Plasmen und können in einer Vielzahl von Konfigurationen für verschiedenste Anwendungen verwendet werden. Die in dieser Arbeit untersuchte Oberflächenentladung dient dazu, Luftströme von flüchtigen organischen Verbindungen zu bereinigen. Mithilfe eines vollautomatisierten Versuchsaufbaus wird der Prozess für verschiedene Verbindungen hinsichtlich der benötigten elektrischen Leistung, der Konversion und der Bildung von Nebenprodukten untersucht. Die Energieeffizienz des Prozesses wird quantifiziert und ein signifikanter Volumeneffekt beobachtet. Dieser wird durch Untersuchungen der Strömungsdynamik eingeordnet. Mittels optischer Absorptionsspektroskopie gemessene Teilchendichten einiger reaktiver Sauerstoff- und Stickstoffspezies werden mit der Konversion von n-Butan korreliert. Die gemessenen Teilchendichten werden außerdem mit solchen aus einem nulldimensionalen Modell der chemischen Reaktionskinetik verglichen.

Published

2022

28. A Comparative Assessment of Replication Stress Markers in the Context of Telomerase

Author

Meessen, Sabine, Najjar, Gregoire, Azoitei, Anca, Iben, Sebastian, Bolenz, Christian, Günes, Cagatay, and Horikawa, Izumi

Subjects

oncogene-induced replication stress, Cancer Research, DNS, Reaktive Sauerstoffspezies, Replikation, DNA replication, Aneuploidy, aneuploidy, reactive oxygen species, telomerase, phosho-RPA2, γ-H2AX, 53BP1, DDC 570 / Life sciences, Oncology, ddc:570, Aneuploidie, ddc:610, Reactive oxygen species, DDC 610 / Medicine & health, Telomerase

Abstract

Simple Summary Genetic alterations such as oncogenic- or aneuploidy-inducing mutations can induce replication stress as a tumor protection mechansim. Previous data indicated that telomerase may ameliorate the cellular responses that induce replication stress. However, the mechanisms how this may occur are still unclear. In order to address this question, the accurate evaluation of replication stress in the presence and absence of telomerase is crucial. Therefore, we used telomerase negative normal human fibroblasts, as well as their telomerase positive counterparts to compare the suitability of three protein markers (pRPA2, γ-H2AX and 53BP1), which were previously reported to accumulate in response to harmful conditions leading to replication stress in cells. In summary, we find that pRPA2 is the most consistent and reliable marker for the detection of replication stress. Further, we demonstrated that the inhibition of the DNA-damage activated ATM and ATR kinases by specific small compounds impaired the accumulation of pRPA2 foci in the absence of telomerase. These data suggest that telomerase rescues the cells from replication stress upon supression of DNA damage induction by modulating the ATM and ATR signaling pathways, and may therefore support tumor formation of genetically unstable cells. Abstract Aberrant replication stress (RS) is a source of genome instability and has serious implications for cell survival and tumourigenesis. Therefore, the detection of RS and the identification of the underlying molecular mechanisms are crucial for the understanding of tumourigenesis. Currently, three protein markers—p33-phosphorylated replication protein A2 (pRPA2), γ-phosphorylated H2AX (γ-H2AX), and Tumor Protein P53 Binding Protein 1 (53BP1)—are frequently used to detect RS. However, to our knowledge, there is no report that compares their suitability for the detection of different sources of RS. Therefore, in this study, we evaluate the suitability of pRPA2, γ-H2AX, and 53BP1 for the detection of RS caused by different sources of RS. In addition, we examine their suitability as markers of the telomerase-mediated alleviation of RS. For these purposes, we use here telomerase-negative human fibroblasts (BJ) and their telomerase-immortalized counterparts (BJ-hTERT). Replication stress was induced by the ectopic expression of the oncogenic RAS mutant RASG12V (OI-RS), by the knockdown of ploidy-control genes ORP3 or MAD2 (AI-RS), and by treatment with hydrogen peroxide (ROS-induced RS). The level of RS was determined by immunofluorescence staining for pRPA2, γ-H2AX, and 53BP1. Evaluation of the staining results revealed that pRPA2- and γ-H2AX provide a significant and reliable assessment of OI-RS and AI-RS compared to 53BP1. On the other hand, 53BP1 and pRPA2 proved to be superior to γ-H2AX for the evaluation of ROS-induced RS. Moreover, the data showed that among the tested markers, pRPA2 is best suited to evaluate the telomerase-mediated suppression of all three types of RS. In summary, the data indicate that the choice of marker is important for the evaluation of RS activated through different conditions., publishedVersion

Published

2022

29. Real-Time Intracellular Measurements of ROS and RNS in Living Cells with Single Core-Shell Nanowire Electrodes.

Author

Zhang, Xin‐Wei, Qiu, Quan‐Fa, Jiang, Hong, Zhang, Fu‐Li, Liu, Yan‐Lin, Amatore, Christian, and Huang, Wei‐Hua

Subjects

*ANTIGEN presenting cells, *IMMUNOCOMPETENT cells, *ELECTRODES, *THIN films

Abstract

Nanoelectrodes allow precise and quantitative measurements of important biological processes at the single living-cell level in real time. Cylindrical nanowire electrodes (NWEs) required for intracellular measurements create a great challenge for achieving excellent electrochemical and mechanical performances. Herein, we present a facile and robust solution to this problem based on a unique SiC-core-shell design to produce cylindrical NWEs with superior mechanical toughness provided by the SiC nano-core and an excellent electrochemical performance provided by the ultrathin carbon shell that can be used as such or platinized. The use of such NWEs for biological applications is illustrated by the first quantitative measurements of ROS/RNS in individual phagolysosomes of living macrophages. As the shell material can be varied to meet any specific detection purpose, this work opens up new opportunities to monitor quantitatively biological functions occurring inside cells and their organelles. [ABSTRACT FROM AUTHOR]

Published

2017

30. Ceria-Zirconia Nanoparticles as an Enhanced Multi-Antioxidant for Sepsis Treatment.

Author

Soh, Min, Kang, Dong‐Wan, Jeong, Han‐Gil, Kim, Dokyoon, Kim, Do Yeon, Yang, Wookjin, Song, Changyeong, Baik, Seungmin, Choi, In‐Young, Ki, Seul‐Ki, Kwon, Hyek Jin, Kim, Taeho, Kim, Chi Kyung, Lee, Seung‐Hoon, and Hyeon, Taeghwan

Subjects

*SEPTICEMIA treatment, *REACTIVE oxygen species, *ZIRCONIUM oxide, *ANTIOXIDANTS, *INFLAMMATION, *NANOMEDICINE

Abstract

The two oxidation states of ceria nanoparticles, Ce3+ and Ce4+, play a pivotal role in scavenging reactive oxygen species (ROS). In particular, Ce3+ is largely responsible for removing O2− and .OH that are associated with inflammatory response and cell death. The synthesis is reported of 2 nm ceria-zirconia nanoparticles (CZ NPs) that possess a higher Ce3+/Ce4+ ratio and faster conversion from Ce4+ to Ce3+ than those exhibited by ceria nanoparticles. The obtained Ce0.7Zr0.3O2 (7CZ) NPs greatly improve ROS scavenging performance, thus regulating inflammatory cells in a very low dose. Moreover, 7CZ NPs are demonstrated to be effective in reducing mortality and systemic inflammation in two representative sepsis models. These findings suggest that 7CZ NPs have the potential as a therapeutic nanomedicine for treating ROS-related inflammatory diseases. [ABSTRACT FROM AUTHOR]

Published

2017

31. Hybrid TiO2-Ruthenium Nano-photosensitizer Synergistically Produces Reactive Oxygen Species in both Hypoxic and Normoxic Conditions.

Author

Gilson, Rebecca C., Black, Kvar C. L., Lane, Daniel D., and Achilefu, Samuel

Subjects

*TITANIUM oxides, *PHOTOSENSITIZERS, *PHOTODYNAMIC therapy, *METAL complexes, *REACTIVE oxygen species, *METAL nanoparticles

Abstract

Photodynamic therapy (PDT) is widely used to treat diverse diseases, but its dependence on oxygen to produce cytotoxic reactive oxygen species (ROS) diminishes the therapeutic effect in a hypoxic environment, such as solid tumors. Herein, we developed a ROS-producing hybrid nanoparticle-based photosensitizer capable of maintaining high levels of ROS under both normoxic and hypoxic conditions. Conjugation of a ruthenium complex (N3) to a TiO2 nanoparticle afforded TiO2-N3. Upon exposure of TiO2-N3 to light, the N3 injected electrons into TiO2 to produce three- and four-fold more hydroxyl radicals and hydrogen peroxide, respectively, than TiO2 at 160 mmHg. TiO2-N3 maintained three-fold higher hydroxyl radicals than TiO2 under hypoxic conditions via N3-facilitated electron-hole reduction of adsorbed water molecules. The incorporation of N3 transformed TiO2 from a dual type I and II PDT agent to a predominantly type I photosensitizer, irrespective of the oxygen content. [ABSTRACT FROM AUTHOR]

Published

2017

32. Selenium-Doped Carbon Quantum Dots for Free-Radical Scavenging.

Author

Li, Feng, Li, Tianyu, Sun, Chenxing, Xia, Jiahao, Jiao, Yang, and Xu, Huaping

Subjects

*SELENIUM, *QUANTUM dots, *FREE radical scavengers, *CARBON, *DOPING agents (Chemistry), *ELECTRONEGATIVITY

Abstract

Heteroatom doping is an effective way to adjust the fluorescent properties of carbon quantum dots. However, selenium-doped carbon dots have rarely been reported, even though selenium has unique chemical properties such as redox-responsive properties owing to its special electronegativity. Herein, a facile and high-output strategy to fabricate selenium-doped carbon quantum dots (Se-CQDs) with green fluorescence (quantum yield 7.6 %) is developed through the hydrothermal treatment of selenocystine under mild conditions. Selenium heteroatoms endow the Se-CQDs with redox-dependent reversible fluorescence. Furthermore, free radicals such as .OH can be effectively scavenged by the Se-CQDs. Once Se-CQDs are internalized into cells, harmful high levels of reactive oxygen species (ROS) in the cells are decreased. This property makes the Se-CQDs capable of protecting biosystems from oxidative stress. [ABSTRACT FROM AUTHOR]

Published

2017

33. Chemoselective Alteration of Fluorophore Scaffolds as a Strategy for the Development of Ratiometric Chemodosimeters.

Author

Zhou, Xinqi, Lesiak, Lauren, Lai, Rui, Beck, Jon R., Zhao, Jia, Elowsky, Christian G., Li, Hui, and Stains, Cliff I.

Subjects

*CHEMOSELECTIVITY, *FLUOROPHORES, *INTRAMOLECULAR charge transfer, *FLUORESCENCE, *SMALL molecules

Abstract

Ratiometric sensors generally couple binding events or chemical reactions at a distal site to changes in the fluorescence of a core fluorophore scaffold. However, such approaches are often hindered by spectral overlap of the product and reactant species. We provide a strategy to design ratiometric sensors that display dramatic spectral shifts by leveraging the chemoselective reactivity of novel functional groups inserted within fluorophore scaffolds. As a proof-of-principle, fluorophores containing a borinate ( RF620) or silanediol ( SiOH2R) functionality at the bridging position of the xanthene ring system are developed as endogenous H2O2 sensors. Both these fluorophores display far-red to near-infrared excitation and emission prior to reaction. Upon oxidation by H2O2 both sensors are chemically converted to tetramethylrhodamine, producing significant (≥66 nm) blue-shifts in excitation and emission maxima. This work provides a new concept for the development of ratiometric probes. [ABSTRACT FROM AUTHOR]

Published

2017

34. A Boronic Acid Conjugate of Angiogenin that Shows ROS-Responsive Neuroprotective Activity.

Author

Hoang, Trish T., Smith, Thomas P., and Raines, Ronald T.

Subjects

*BORONIC acids, *ANGIOGENIN, *ACTIVE oxygen in the body, *GENETICS of amyotrophic lateral sclerosis, *AMYOTROPHIC lateral sclerosis treatment

Abstract

Angiogenin (ANG) is a human ribonuclease that is compromised in patients with amyotrophic lateral sclerosis (ALS). ANG also promotes neovascularization, and can induce hemorrhage and encourage tumor growth. The causal neurodegeneration of ALS is associated with reactive oxygen species, which are also known to elicit the oxidative cleavage of carbon-boron bonds. We have developed a synthetic boronic acid mask that restrains the ribonucleolytic activity of ANG. The masked ANG does not stimulate endothelial cell proliferation but protects astrocytes from oxidative stress. By differentiating between the two dichotomous biological activities of ANG, this strategy could provide a viable pharmacological approach for the treatment of ALS. [ABSTRACT FROM AUTHOR]

Published

2017

35. Mitochondriale Effekte des Schwefelwasserstoffdonors AP39 im Rahmen einer Lipopolysaccharid-Stimulation einer embryonalen Neuronenzellkultur der Ratte

Author

Bewersdorf, Tim, Calzia, Enrico, and Huber-Lang, Markus

Subjects

Sauerstoffverbrauch, Tiermodell, Mitochondrium, Hydrogen sulfide, Metabolism, Zellkultur, Citrat-Synthase, Electron transport, Immunoblotting, Reaktive Sauerstoffspezies, Lipopolysaccharide, Immunoblot, AP39, Mitochondria, Ratte, Models, Animal, ddc:610, Schwefelwasserstoff, DDC 610 / Medicine & health, Cell culture techniques, Nervenzelle

Abstract

Einleitung: Das hochgiftige, wasserlösliche Gas Schwefelwasserstoff (H2S) ist in den letzten Jahren zunehmend in den Fokus der Medizin geraten, da Säugetiere endogen H2S produzieren und H2S zahlreiche physiologische Funktionen im Körper übernimmt. Neben antioxidativen Effekten wirkt H2S auch auf die mitochondriale Atmungskette. In niedrigen Konzentrationen bewirkt H2S eine Steigerung der Atmungskette, da er als Substrat der Sulfide Oxidation Unit Elektronen in die Atmungskette einspeist. Demgegenüber bewirken höhere Konzentrationen eine reversible Hemmung der Cytochrom-C-Oxidase, dem Komplex IV (CIV) der Atmungskette, wodurch die gesamte Atmungskette zum Erliegen kommt. Ziel dieser Dissertation war die Untersuchung der Effekte des langsam schwefelwasserstofffreisetzenden Donors AP39 (10-oxo-10-(4-(3-thioxo-3H-1,2-dithiol-5yl)phenoxy)decyl)triphenylphosphoniumbromid) auf die Atmungskette von primären corticalen Neuronen der Ratte. Hierbei lag der Fokus auf zeitabhängigen Auswirkungen von AP39 auf den Sauerstoffverbrauch, sowie zytoprotektiven Effekten in einem Inflammationsmodell. Methoden: Stimulation einer primären corticalen Neuronenzellkultur der Ratte an Tag 21 bis 24 in Kultur mit 10nM AP39 für 2 und 24 Stunden. Zusätzlich Stimulation in einem Inflammationsmodell mit Lipopolysaccharid für 2 und 24 Stunden. Anschließende hochauflösende live in-vitro O2-Verbrauchsmessung (High-resolution respirometry) mit zeitgleicher fluorometrischer Messung der Sauerstoffradikalbildung, mitochondriale Massenbestimmung (Citrat-Synthase Aktivität), sowie Western Blot. Ergebnisse und Diskussion: AP39 wies zeitabhängige Effekte auf die Atmungskette von Neuronen auf. Die langsame Freisetzung von H2S durch AP39 resultierte wahrscheinlich in einem kontinuierlichen Anstieg der H2S-Konzentration in den Zellen, sodass nach zweistündiger Inkubation eine Steigerung des Sauerstoffverbrauchs gezeigt werden konnte, da AP39 als Substrat der Atmungskette an der Sulfide Oxidation Unit fungierte. Nach 24-stündiger Inkubation war eine Reduzierung des Sauerstoffverbrauchs durch eine reversible Hemmung von Komplex IV nachweisbar. Während diese Effekte auf Veränderungen der Aktivität der Atmungskette zurückzuführen waren, aktivierte LPS durch verstärkte Mitogenese und einer Steigerung des Elektronentransportsystems die Atmungskette und steigerte somit den Sauerstoffverbrauch. AP39 konnte diese Effekte nach 24-stündiger Stimulation aufgrund einer Kompensation von LPS-induziertem Zellstress und einer Verringerung des Protonenlecks signifikant reduzieren. Außerdem konnte gezeigt werden, dass die partielle Hemmung der Atmungskette durch AP39 weder mit erhöhtem oxidativem Stress noch Energiemangel assoziiert war.

Published

2022

36. Anti-inflammatory effects of methyl fumarate-derived iron carbonyl complexes (FumET-CORMs) and reactive oxygen species on dendritic cell differentiation

Author

Bauer, Britta Juliana and Röcken, Martin (Prof. Dr.)

Subjects

Immunsystem , Dendritische Zelle, Reaktive Sauerstoffspezies, Kohlenstoffmonoxid

Abstract

Einer der grundlegenden Schritte einer erfolgreichen Therapie von Th1/Th17-vermittelten Autoimmunerkrankungen ist die Induktion von Typ II dendritischen Zellen (DCs), welche im Folgenden zu einer Immundeviation hin zu einer anti-inflammatorischen Th2 Antwort führen. Im ersten Teil der Arbeit erfolgte deshalb die Charakterisierung neuer Substanzen, welche sowohl Kohlenstoffmonoxid als auch Fumarsäureester freisetzen. Die Behandlung mit diesen FumET-CORMs zeigte sich als sehr effektiv, da es zu einer robusten Induktion von Typ II DCs kam. Die dabei charakteristische Verminderung der STAT1 Phosphorylierung, Induktion von HO-1 und die daraus resultierende Inhibition der Zytokine IL-12p70 und IL-23 erfolgte sogar stärker und bei deutlich niedrigeren Konzentrationen als bei der Kontrollbehandlung mit Dimethylfumarat (DMF). Für eine detaillierte mechanistische Aufklärung der Therapie mit DMF wurde im zweiten Teil der Arbeit ein Cystin/Glutamat Antiporter Knockout Mausmodell herangezogen. In DCs dieser Mäuse wurde damit der Verlust des Radikalfängers Glutathion (GSH) und eine einhergehende Induktion von reaktiven Sauerstoffspezies auf genetischer Ebene erreicht, ohne Nebeneffekte einer pharmakologischen Behandlung. Entgegen der zuvor aufgestellten Hypothese resultierten diese Änderungen der Redox Homöostase nicht in der Differenzierung der DCs hin zu einem Typ II Phänotyp. Stattdessen führte die zusätzliche Behandlung dieser bereits GSH-depletierten Zellen trotzdem zur Modulation des HO-1 und STAT1 Signalweges, sowie der Inhibition der nachgeschalteten Zytokine IL-12p70 und IL-23. Dies zeigt, dass weitere Modifikationen durch das Fumarat für die Vermittlung der Effekte verantwortlich zu machen sind. Des Weiteren konnte auch eine Überkompensation des Antiporterverlustes über den Thioredoxin Signalweg durch den Einsatz von Auranofin ausgeschlossen werden. Die Modulation der Redox Homöostase allein war nicht ausreichend, um DCs in einen anti-inflammatorischen Typ II Phänotyp zu überführen, stattdessen spielen dabei wahrscheinlich noch weitere intrazelluläre Ziele der DMF Behandlung eine entscheidende Rolle. One of the fundamental steps in a successful therapy of Th1/Th17-mediated autoimmune diseases is the induction of type II dendritic cells (DCs), which subsequently cause an immune deviation towards an anti-inflammatory Th2 response. In the first part of the work, the characterization of new substances, which release carbon monoxide as well as fumaric acid esters, was carried out. The treatment with these FumET-CORMs proved to be highly effective, as a robust induction of type II DCs was achieved. The characteristic reduction of STAT1 phosphorylation, induction of HO-1 and the resulting inhibition of the cytokines IL-12p70 and IL-23 occurred even more pronounced and at significantly lower concentrations than in the control treatment with dimethyl fumarate (DMF). For a detailed mechanistic analysis of the DMF therapy, a cystine/glutamate antiporter knockout mouse model was employed in the second part of the study. In DCs of these mice, the loss of the scavenger of reactive oxygen species, glutathione (GSH), and an associated induction of said chemical entities was achieved on the genetic level without additional effects of pharmacological treatment. In contrast to the previously proposed hypothesis, these changes in redox homeostasis did not result in the differentiation of the DCs into a type II phenotype. Instead, the additional treatment of these already GSH-depleted cells still resulted in the HO-1 and STAT1 signaling pathway's modulation and the inhibition of downstream cytokines IL-12p70 and IL-23, indicating that additional targets of the fumarate are responsible for the mediation of these effects. In further experiments, an overcompensation of the antiporter loss via the thioredoxin signaling pathway could be excluded by using the inhibitor auranofin. Accordingly, the modulation of redox homeostasis alone is not sufficient to transform DCs into an anti-inflammatory type II phenotype. Instead, further intracellular targets of DMF treatment probably also play a decisive role in this process.

Published

2021

37. Hydrogen Sulfide Donors Activated by Reactive Oxygen Species.

Author

Zhao, Yu and Pluth, Michael D.

Subjects

*HYDROGEN sulfide, *REACTIVE oxygen species, *ELECTRON donors, *CARBONYL compounds, *CARBONIC anhydrase, *PEROXYNITRITE, *OXIDATIVE stress, *ACTIVATION (Chemistry)

Abstract

Hydrogen sulfide (H2S) exhibits promising protective effects in many (patho)physiological processes, as evidenced by recent reports using synthetic H2S donors in different biological models. Herein, we report the design and evaluation of compounds denoted PeroxyTCM, which are the first class of reactive oxygen species (ROS)-triggered H2S donors. These donors are engineered to release carbonyl sulfide (COS) upon activation, which is quickly hydrolyzed to H2S by the ubiquitous enzyme carbonic anhydrase (CA). The donors are stable in aqueous solution and do not release H2S until triggered by ROS, such as hydrogen peroxide (H2O2), superoxide (O2−), and peroxynitrite (ONOO−). We demonstrate ROS-triggered H2S donation in live cells and also demonstrate that PeroxyTCM-1 provides protection against H2O2-induced oxidative damage, suggesting potential future applications of PeroxyTCM and similar scaffolds in H2S-related therapies. [ABSTRACT FROM AUTHOR]

Published

2016

38. Near-Infrared Fluorescent Probe with New Recognition Moiety for Specific Detection of Tyrosinase Activity: Design, Synthesis, and Application in Living Cells and Zebrafish.

Author

Wu, Xiaofeng, Li, Lihong, Shi, Wen, Gong, Qiuyu, and Ma, Huimin

Subjects

*FLUORESCENT probes, *PHENOL oxidase, *FUNCTIONAL groups, *ZEBRA danio, *REACTIVE oxygen species, *ENZYME-linked immunosorbent assay

Abstract

Fluorescence imaging of tyrosinase (a cancer biomarker) in living organisms is of great importance for biological studies. However, selective detection of tyrosinase remains a great challenge because current fluorescent probes that contain the 4-hydroxyphenyl moiety show similar fluorescence responses to both tyrosinase and some reactive oxygen species (ROS), thereby suffering from ROS interference. Herein, a new tyrosinase-recognition 3-hydroxybenzyloxy moiety, which exhibits distinct fluorescence responses for tyrosinase and ROS, is proposed. Using the recognition moiety, we develop a near-infrared fluorescence probe for tyrosinase activity, which effectively eliminates the interference from ROS. The high specificity of the probe was demonstrated by imaging and detecting endogenous tyrosinase activity in live cells and zebrafish and further validated by an enzyme-linked immunosorbent assay. The probe is expected to be useful for the accurate detection of tyrosinase in complex biosystems. [ABSTRACT FROM AUTHOR]

Published

2016

39. Grundlagen der Plasmamedizin.

Author

von Woedtke, T. and Weltmann, K.-D.

Abstract

Copyright of Der MKG-Chirurg is the property of Springer Nature and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2016

40. Warum Lithium-Sauerstoff-Batterien versagen: Parasitäre chemische Reaktionen und ihr synergistischer Effekt.

Author

Yao, Xiahui, Dong, Qi, Cheng, Qingmei, and Wang, Dunwei

Abstract

Als Technologie zur elektrochemischen Energiespeicherung mit der höchsten theoretischen Kapazität sind Lithium ‐ Sauerstoff ‐ Batterien mit großen Herausforderungen im Hinblick auf die schlechte Stabilität und den geringen Round ‐ Trip ‐ Wirkungsgrad beim Laden/Entladen verbunden. Es ist allgemein anerkannt, dass diese Probleme mit den parasitären chemischen Reaktionen an der Anode, im Elektrolyten und an der Kathode in Zusammenhang stehen. Während die detaillierten Mechanismen dieser Reaktionen gesondert untersucht wurden, sind die möglichen synergistischen Effekte zwischen ihnen immer noch schlecht verstanden. Um diese Wissenslücke zu schließen, behandelt dieser Kurzaufsatz Literaturberichte zu den parasitären chemischen Reaktionen und stellt als entscheidenden chemischen Vermittler die reaktiven Sauerstoffspezies heraus, die an fast allen parasitären chemischen Reaktionen beteiligt sind oder diese fördern. In Anbetracht des ubiquitären Vorkommens von Sauerstoff in allen Testzellen ist diese Erkenntnis von großer Wichtigkeit. Sie liefert neue Einblicke dazu, wie verschiedene Komponenten von Lithium ‐ Sauerstoff ‐ Batterien für den Hochleistungsbetrieb stabilisiert werden können und wie das Potenzial dieser aussichtsreichen Technologie voll ausgeschöpft werden kann. Ein Rad greift ins andere: In Lithium ‐ Sauerstoff ‐ Batterien sind reaktive Sauerstoffspezies an fast allen parasitären chemischen Reaktionen an der Anode, der Kathode und im Elektrolyten beteiligt oder fördern diese. Das Verständnis ihres synergistischen Effekts wird eine rationalere Entwicklung zukünftiger Lithium ‐ Sauerstoff ‐ Batterien ermöglichen. [ABSTRACT FROM AUTHOR]

Published

2016

41. Copper(II)-Graphitic Carbon Nitride Triggered Synergy: Improved ROS Generation and Reduced Glutathione Levels for Enhanced Photodynamic Therapy.

Author

Ju, Enguo, Dong, Kai, Chen, Zhaowei, Liu, Zhen, Liu, Chaoqun, Huang, Yanyan, Wang, Zhenzhen, Pu, Fang, Ren, Jinsong, and Qu, Xiaogang

Subjects

*COPPER, *CARBON, *NITRIDES, *PHOTODYNAMIC therapy, *GLUTATHIONE, *REACTIVE oxygen species, *CANCER cells, *CANCER treatment

Abstract

Graphitic carbon nitride (g-C3N4) has been used as photosensitizer to generate reactive oxygen species (ROS) for photodynamic therapy (PDT). However, its therapeutic efficiency was far from satisfactory. One of the major obstacles was the overexpression of glutathione (GSH) in cancer cells, which could diminish the amount of generated ROS before their arrival at the target site. Herein, we report that the integration of Cu2+ and g-C3N4 nanosheets (Cu2+-g-C3N4) led to enhanced light-triggered ROS generation as well as the depletion of intracellular GSH levels. Consequently, the ROS generated under light irradiation could be consumed less by reduced GSH, and efficiency was improved. Importantly, redox-active species Cu+-g-C3N4 could catalyze the reduction of molecular oxygen to the superoxide anion or hydrogen peroxide to the hydroxyl radical, both of which facilitated the generation of ROS. This synergy of improved ROS generation and GSH depletion could enhance the efficiency of PDT for cancer therapy. [ABSTRACT FROM AUTHOR]

Published

2016

42. Ischämische Fernkonditionierung zur Kardioprotektion.

Author

Albrecht, M.

Abstract

Copyright of Zeitschrift für Herz-, Thorax- und Gefaesschirurgie is the property of Springer Nature and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2016

43. Self-Assembly of Multi-nanozymes to Mimic an Intracellular Antioxidant Defense System.

Author

Huang, Yanyan, Liu, Zhen, Liu, Chaoqun, Ju, Enguo, Zhang, Yan, Ren, Jinsong, and Qu, Xiaogang

Subjects

*MOLECULAR self-assembly, *NANOPARTICLES, *ANTIOXIDANTS, *ENZYMES, *NANOWIRES, *GLUTATHIONE peroxidase, *REACTIVE oxygen species

Abstract

In this work, for the first time, we constructed a novel multi-nanozymes cooperative platform to mimic intracellular antioxidant enzyme-based defense system. V2O5 nanowire served as a glutathione peroxidase (GPx) mimic while MnO2 nanoparticle was used to mimic superoxide dismutase (SOD) and catalase (CAT). Dopamine was used as a linker to achieve the assembling of the nanomaterials. The obtained V2O5@pDA@MnO2 nanocomposite could serve as one multi-nanozyme model to mimic intracellular antioxidant enzyme-based defense procedure in which, for example SOD, CAT, and GPx co-participate. In addition, through assembling with dopamine, the hybrid nanocomposites provided synergistic antioxidative effect. Importantly, both in vitro and in vivo experiments demonstrated that our biocompatible system exhibited excellent intracellular reactive oxygen species (ROS) removal ability to protect cell components against oxidative stress, showing its potential application in inflammation therapy. [ABSTRACT FROM AUTHOR]

Published

2016

44. A Diradical Approach towards BODIPY-Based Dyes with Intense Near-Infrared Absorption around λ=1100 nm.

Author

Ni, Yong, Lee, Sangsu, Son, Minjung, Aratani, Naoki, Ishida, Masatoshi, Samanta, Animesh, Yamada, Hiroko, Chang, Young ‐ Tae, Furuta, Hiroyuki, Kim, Dongho, and Wu, Jishan

Subjects

*INFRARED absorption, *ORGANIC dyes, *QUINODIMETHANE, *LIGHT absorption, *ISOMERIZATION, *ELECTROMAGNETIC spectrum

Abstract

A diradical approach to obtain stable organic dyes with intense absorption around λ=1100 nm is reported. The para- and meta-quinodimethane-bridged BODIPY dimers BD-1 and BD-2 were synthesized and were found to have a small amount of diradical character. These molecules exhibited very intense absorption at λ=1088 nm ( ɛ=6.65×105 M−1 cm−1) and 1136 nm ( ɛ=6.44×105 M−1 cm−1), respectively, together with large two-photon-absorption cross-sections. Structural isomerization induced little variation in their diradical character but distinctive differences in their physical properties. Moreover, the compounds showed a selective fluorescence turn-on response in the presence of the hydroxyl radical but not with other reactive oxygen species. [ABSTRACT FROM AUTHOR]

Published

2016

45. Breast Cancer Stem Cell Potent Copper(II)-Non-Steroidal Anti-Inflammatory Drug Complexes.

Author

Boodram, Janine N., Mcgregor, Iain J., Bruno, Peter M., Cressey, Paul B., Hemann, Michael T., and Suntharalingam, Kogularamanan

Subjects

*BREAST cancer, *CANCER stem cells, *COPPER, *PHENANTHROLINE, *NONSTEROIDAL anti-inflammatory agents, *INDOMETHACIN, *REACTIVE oxygen species, *DNA damage

Abstract

The breast cancer stem cell (CSC) potency of a series of copper(II)-phenanthroline complexes containing the nonsteroidal anti-inflammatory drug (NSAID), indomethacin, is reported. The most effective copper(II) complex in this series, 4, selectivity kills breast CSC-enriched HMLER-shEcad cells over breast CSC-depleted HMLER cells. Furthermore, 4 reduces the formation, size, and viability of mammospheres, to a greater extent than salinomycin, a potassium ionophore known to selectively inhibit CSCs. Mechanistic studies revealed that the CSC-specificity observed for 4 arises from its ability to generate intracellular reactive oxygen species (ROS) and inhibit cyclooxygenase-2 (COX-2), an enzyme that is overexpressed in breast CSCs. The former induces DNA damage, activates JNK and p38 pathways, and leads to apoptosis. [ABSTRACT FROM AUTHOR]

Published

2016

46. Reactive Oxygen Species Play an Important Role in the Bactericidal Activity of Quinolone Antibiotics.

Author

Kottur, Jithesh and Nair, Deepak T.

Subjects

*REACTIVE oxygen species, *BACTERICIDAL action, *NUCLEOTIDE synthesis, *QUINOLONE antibacterial agents synthesis, *DNA polymerases, *DNA replication, *NORFLOXACIN

Abstract

Recent studies posit that reactive oxygen species (ROS) contribute to the cell lethality of bactericidal antibiotics. However, this conjecture has been challenged and remains controversial. To resolve this controversy, we adopted a strategy that involves DNA polymerase IV (PolIV). The nucleotide pool of the cell gets oxidized by ROS and PolIV incorporates the damaged nucleotides (especially 8oxodGTP) into the genome, which results in death of the bacteria. By using a combination of structural and biochemical tools coupled with growth assays, it was shown that selective perturbation of the 8oxodGTP incorporation activity of PolIV results in considerable enhancement of the survival of bacteria in the presence of the norfloxacin antibiotic. Our studies therefore indicate that ROS induced in bacteria by the presence of antibiotics in the environment contribute significantly to cell lethality. [ABSTRACT FROM AUTHOR]

Published

2016

47. Free Superoxide is an Intermediate in the Production of H2O2 by Copper(I)-Aβ Peptide and O2.

Author

Reybier, Karine, Ayala, Sara, Alies, Bruno, Rodrigues, João V., Bustos Rodriguez, Susana, La Penna, Giovanni, Collin, Fabrice, Gomes, Cláudio M., Hureau, Christelle, and Faller, Peter

Subjects

*SUPEROXIDES, *COPPER compounds, *HYDROGEN peroxide, *ALZHEIMER'S disease, *PEPTIDE analysis, *OXYGEN analysis

Abstract

Oxidative stress is considered as an important factor and an early event in the etiology of Alzheimer's disease (AD). Cu bound to the peptide amyloid-β (Aβ) is found in AD brains, and Cu-Aβ could contribute to this oxidative stress, as it is able to produce in vitro H2O2 and HO' in the presence of oxygen and biological reducing agents such as ascorbate. The mechanism of Cu-Aβ-catalyzed H2O2 production is however not known, although it was proposed that H2O2 is directly formed from O2 via a 2-electron process. Here, we implement an electrochemical setup and use the specificity of superoxide dismutase-1 (SOD1) to show, for the first time, that H2O2 production by Cu-Aβ in the presence of ascorbate occurs mainly via a free O2*1 intermediate. This finding radically changes the view on the catalytic mechanism of H2O2 production by Cu-Aβ, and opens the possibility that Cu-Aβcatalyzed O2*1 contributes to oxidative stress in AD, and hence may be of interest. [ABSTRACT FROM AUTHOR]

Published

2016

48. Free Superoxide is an Intermediate in the Production of H2O2 by Copper(I)-Aβ Peptide and O2.

Author

Reybier, Karine, Ayala, Sara, Alies, Bruno, Rodrigues, João V., Bustos Rodriguez, Susana, La Penna, Giovanni, Collin, Fabrice, Gomes, Cláudio M., Hureau, Christelle, and Faller, Peter

Subjects

SUPEROXIDES, COPPER compounds, HYDROGEN peroxide, ALZHEIMER'S disease, PEPTIDE analysis, OXYGEN analysis

Abstract

Oxidative stress is considered as an important factor and an early event in the etiology of Alzheimer's disease (AD). Cu bound to the peptide amyloid-β (Aβ) is found in AD brains, and Cu-Aβ could contribute to this oxidative stress, as it is able to produce in vitro H2O2 and HO' in the presence of oxygen and biological reducing agents such as ascorbate. The mechanism of Cu-Aβ-catalyzed H2O2 production is however not known, although it was proposed that H2O2 is directly formed from O2 via a 2-electron process. Here, we implement an electrochemical setup and use the specificity of superoxide dismutase-1 (SOD1) to show, for the first time, that H2O2 production by Cu-Aβ in the presence of ascorbate occurs mainly via a free O2*1 intermediate. This finding radically changes the view on the catalytic mechanism of H2O2 production by Cu-Aβ, and opens the possibility that Cu-Aβcatalyzed O2*1 contributes to oxidative stress in AD, and hence may be of interest. [ABSTRACT FROM AUTHOR]

Published

2016

49. Toxizität von Graphenoxid: Endoperoxide als Ursache.

Author

Pieper, Hanna, Chercheja, Serghei, Eigler, Siegfried, Halbig, Christian E., Filipovic, Milos R., and Mokhir, Andriy

Abstract

Potentielle biomedizinische Anwendungen von Graphenoxid (GO), z. B. als Träger von Biomolekülen, Reagentien für die photothermische Therapie oder Biosensoren, werden durch die Zytotoxizität und Mutagenität dieses Materials eingeschränkt. Es wird davon ausgegangen, dass diese Eigenschaften zumindest zum Teil auf eine von GO verursachte Erhöhung des oxidativen Stresses in Zellen zurückzuführen ist. Es ist jedoch nicht bekannt, auf welchen chemischen Fragmenten dieser ungünstige Effekt beruht. In dieser Arbeit wurden vier GOs entwickelt, welche verschiedene redoxaktive Gruppen wie Mn2+, C ‐ zentrierte Radikale sowie Endoperoxide (EPs) auf der Oberfläche besitzen. Der Vergleich der Fähigkeit der Materialien, reaktive Sauerstoffspezies in humanen Gebärmutterhalskrebszellen zu generieren, zeigt, dass EPs eine entscheidende Rolle im GO ‐ induzierten oxidativen Stress spielen. Diese Ergebnisse können für die gezielte Entwicklung von biokompatiblem und nicht ‐ toxischem GO für biomedizinische Anwendungen verwendet werden. Auf der Suche nach dem Schuldigen: Die Anwendung von Graphenoxid (GO) in der Biomedizin wird durch dessen Zytotoxizität und Mutagenität eingeschränkt. Um herauszufinden, welche chemischen Fragmente diese Toxizität verursachen, wurden GOs mit verschiedenen redoxaktiven Oberflächengruppen hergestellt und verglichen. Es zeigt sich, dass Endoperoxide entscheidend zur Generierung reaktiver Sauerstoffspezies beitragen. [ABSTRACT FROM AUTHOR]

Published

2016

50. Development of a Sensitive Bioluminogenic Probe for Imaging Highly Reactive Oxygen Species in Living Rats.

Author

Kojima, Ryosuke, Takakura, Hideo, Kamiya, Mako, Kobayashi, Eiji, Komatsu, Toru, Ueno, Tasuku, Terai, Takuya, Hanaoka, Kenjiro, Nagano, Tetsuo, and Urano, Yasuteru

Subjects

*REACTIVE oxygen species, *BIOLUMINESCENCE, *CHARGE exchange, *LUMINESCENCE, *MEMBRANE permeability (Biology)

Abstract

A sensitive bioluminogenic probe for highly reactive oxygen species (hROS), SO³H-APL, was developed based on the concept of dual control of bioluminescence emission by means of bioluminescent enzyme-induced electron transfer (BioLeT) and modulation of cell-membrane permeability. This probe enables non-invasive visualization of physiologically relevant amounts of hROS generated deep inside the body of living rats for the first time. It is expected to serve as a practical analytical tool for investigating a wide range of biological functions of hROS in vivo. The design concept should be applicable to other in vivo bioluminogenic probes. [ABSTRACT FROM AUTHOR]

Published

2015